The contribution of the Factor IX catalytic domain to Factor VIIIa binding has been evaluated by functional analysis of Factor IX variants with substitutions in alpha-helix region 333-339 and region 301-303. These regions were found to play a prominent role in Factor VIIIa-dependent stimulation of Factor X activation, but do not contribute to the high-affinity interaction with Factor VIIIa light chain. We propose that complex assembly between Factor IXa and Factor VIIIa involves multiple interactive sites that are located on different domains of these proteins.
The active site of activated Factor IX (FIXa) and related blood-coagulation enzymes is surrounded by a number of highly variable surface loops, which contribute to the characteristic substrate specificity of each individual enzyme. FIX residue Lys(316) is located in one of these loops and mutation of this residue to Glu is associated with haemophilia B. In the present study we investigated the functional role of Lys(316) in human FIXa by analysing the purified and activated FIX mutants FIXa-K316E and FIXa-K316A. FIXa-K316E was indistinguishable from normal FIXa in binding the competitive active-site inhibitor p-aminobenzamidine. In addition, substitution of Glu for Lys(316) had no significant effect on the reactivity towards various synthetic tripeptide substrates. Inhibition by the macromolecular inhibitor antithrombin was only slightly reduced for both FIXa mutants (less than 2-fold). In contrast, proteolytic activity of FIXa-K316E towards the natural substrate Factor X (FX) was virtually lacking, while the Lys(316) to Ala mutation resulted in a more than 10-fold reduction in FX activation. Thus residue Lys(316) plays a key role in FIXa activity towards FX. The requirement for Lys at position 316 for FX activation was also evident in the presence of the cofactor activated Factor VIII, although to a lesser extent than in its absence. These data demonstrate that Lys(316) specifically determines the reactivity of FIXa towards its natural substrate FX, but not to synthetic peptide substrates or antithrombin.
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